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Registered Member #72
Joined: Thu Feb 09 2006, 08:29AM
Location: UK St. Albans
Posts: 1659
I'm not sure you've divided the right thing by th eright thing there Newton.
If we take 125uJ in the cap, and work out what inductance is needed to store the same energy at 2mA in an inductor, then it's 62H. This is a lot. Unless you want to be up to your elbows in very fine wire, it sounds like rethinking the LED current, or the cap energy, would be in order.
2mA might be the rated contionuous current for the LED, but what's the pulse current? Can it take 20mA for a few mS once every 3 minutes? That would reduce the inductance to a more manageable 620mH. 50mA? Now you'd be talking 100mH.
Iron or ferrite? 1nF * 62H resonates at 640H, so you might just get away with iron, with a lot of losses, unless you can find aircraft grade 400Hz cores. Using 620mH puts you up at 6.4kHz, defintely ferrite territory.
Now were you to design a transformer to do it, then either ...
a) it's a flyback, and you'd need still to store the 125uJ in the core. Using a lower primary inductance would draw a higher current from the cap, which is all fine. But what about the secoindary? If you want to deliver 2mA max into the LED, you are back with a current step-down, or voltage step-up transformer, so an up to your elbows in fine wire secondary.
b) it's a flux-coupled conventional transformer, with a large step-down in voltage. Either you'd need signaificant leakage inductance to control the LED current, or a wasteful series resistor. With a uni-polar input, the core must still be volt.seconds rated to tolerate the rise in flux over the length of the pulse.
Registered Member #3414
Joined: Sun Nov 14 2010, 05:05PM
Location: UK
Posts: 4245
Inductors of several H are readily available from the power supply circuits of 'vacuum tube era' equipment. They are reasonably compact and don't require being 'up to your elbows' in fine wire.
I have one here rated for 463V. Looks like it's ~10H, but I've not measured it yet.
Registered Member #72
Joined: Thu Feb 09 2006, 08:29AM
Location: UK St. Albans
Posts: 1659
Ash Small wrote ...
Inductors of several H are readily available from the power supply circuits of 'vacuum tube era' equipment. They are reasonably compact and don't require being 'up to your elbows' in fine wire.
I have one here rated for 463V. Looks like it's ~10H, but I've not measured it yet.
Registered Member #3414
Joined: Sun Nov 14 2010, 05:05PM
Location: UK
Posts: 4245
Dr. Slack wrote ...
50Hz iron is it?
Yes, but isn't this circuit operating at ~1/60Hz, or so?
EDIT: And if you dump a capacitor into an inductor, does it matter what the core is made from? Won't the discharge rate be entirely dependant on the inductance? (assuming the ESR of the capacitor doesn't dominate)
Resistance losses in the copper obviously have to be considered, but these 'iron core' inductors will have less losses than a ferrite cored inductor, which will require more, presumably thinner, copper wire for the same inductance, won't it?
Registered Member #72
Joined: Thu Feb 09 2006, 08:29AM
Location: UK St. Albans
Posts: 1659
If the 1nF cap and 60H inductor ring up one quarter cycle in 400uS, what frequency do you think the eddy current losses in the iron are interested in? the 640Hz fundamental frequency, or the once per 3 minutes that it happens? You're not worried about it getting hot, you're worried about the efficiency as energy out to LED divided by energy fromm the capactiro, or at least I am.
Registered Member #3414
Joined: Sun Nov 14 2010, 05:05PM
Location: UK
Posts: 4245
Dr. Slack wrote ...
If the 1nF cap and 60H inductor ring up one quarter cycle in 400uS, what frequency do you think the eddy current losses in the iron are interested in? the 640Hz fundamental frequency, or the once per 3 minutes that it happens? You're not worried about it getting hot, you're worried about the efficiency as energy out to LED divided by energy fromm the capactiro, or at least I am.
Ok, I think I get it, Neil. I'm not familiar with calculating eddy current losses, but I think I can see that at 450V there won't be a lot of resistance to the small amount of current we're considering here.
If I=V/R, then eddy current losses are entirely dependant on V and frequency, for any particular inductor?
I'm not sure I completely follow this, as the voltage is only applied for a relatively short period, every so often, and energy stored in a capacitor is a function of 1/2C and V^2, if I remember correctly, although I think I can see that, for any voltage, eddy current will be a constant, per unit of time. (EDIT: although V will be divided by the number of turns)
I can see that reducing eddy current losses will greatly improve efficiency, although using ferrite will presumably increase copper (ohmic) losses.
Would a powdered iron toriodal core be an inprovement over a gapped ferrite core? You presumably wouldn't need the same amount of copper, for example, due to the much higher permeability of the powdered iron.
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Light LED with 4 nanoamps
